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APACHE_AIRFLOW_DATA_PIPELINES

Project Description: A music streaming company wants to introduce more automation and monitoring to their data warehouse ETL pipelines and they have come to the conclusion that the best tool to achieve this is Apache Airflow. As their Data Engineer, I was tasked to create a reusable production-grade data pipeline that incorporates data quality checks and allows for easy backfills. Several analysts and Data Scientists rely on the output generated by this pipeline and it is expected that the pipeline runs daily on a schedule by pulling new data from the source and store the results to the destination. Data Description: The source data resides in S3 and needs to be processed in a data warehouse in Amazon Redshift. The source datasets consist of JSON logs that tell about user activity in the application and JSON metadata about the songs the users listen to. Data Pipeline design: At a high-level the pipeline does the following tasks. Extract data from multiple S3 locations. Load the data into Redshift cluster. Transform the data into a star schema. Perform data validation and data quality checks. Calculate the most played songs for the specified time interval. Load the result back into S3. dag Structure of the Airflow DAG Design Goals: Based on the requirements of our data consumers, our pipeline is required to adhere to the following guidelines: The DAG should not have any dependencies on past runs. On failure, the task is retried for 3 times. Retries happen every 5 minutes. Catchup is turned off. Do not email on retry. Pipeline Implementation: Apache Airflow is a Python framework for programmatically creating workflows in DAGs, e.g. ETL processes, generating reports, and retraining models on a daily basis. The Airflow UI automatically parses our DAG and creates a natural representation for the movement and transformation of data. A DAG simply is a collection of all the tasks you want to run, organized in a way that reflects their relationships and dependencies. A DAG describes how you want to carry out your workflow, and Operators determine what actually gets done. By default, airflow comes with some simple built-in operators like PythonOperator, BashOperator, DummyOperator etc., however, airflow lets you extend the features of a BaseOperator and create custom operators. For this project, I developed several custom operators. operators The description of each of these operators follows: StageToRedshiftOperator: Stages data to a specific redshift cluster from a specified S3 location. Operator uses templated fields to handle partitioned S3 locations. LoadFactOperator: Loads data to the given fact table by running the provided sql statement. Supports delete-insert and append style loads. LoadDimensionOperator: Loads data to the given dimension table by running the provided sql statement. Supports delete-insert and append style loads. SubDagOperator: Two or more operators can be grouped into one task using the SubDagOperator. Here, I am grouping the tasks of checking if the given table has rows and then run a series of data quality sql commands. HasRowsOperator: Data quality check to ensure that the specified table has rows. DataQualityOperator: Performs data quality checks by running sql statements to validate the data. SongPopularityOperator: Calculates the top ten most popular songs for a given interval. The interval is dictated by the DAG schedule. UnloadToS3Operator: Stores the analysis result back to the given S3 location. Code for each of these operators is located in the plugins/operators directory. Pipeline Schedule and Data Partitioning: The events data residing on S3 is partitioned by year (2018) and month (11). Our task is to incrementally load the event json files, and run it through the entire pipeline to calculate song popularity and store the result back into S3. In this manner, we can obtain the top songs per day in an automated fashion using the pipeline. Please note, this is a trivial analyis, but you can imagine other complex queries that follow similar structure. S3 Input events data: s3://<bucket>/log_data/2018/11/ 2018-11-01-events.json 2018-11-02-events.json 2018-11-03-events.json .. 2018-11-28-events.json 2018-11-29-events.json 2018-11-30-events.json S3 Output song popularity data: s3://skuchkula-topsongs/ songpopularity_2018-11-01 songpopularity_2018-11-02 songpopularity_2018-11-03 ... songpopularity_2018-11-28 songpopularity_2018-11-29 songpopularity_2018-11-30 The DAG can be configured by giving it some default_args which specify the start_date, end_date and other design choices which I have mentioned above. default_args = { 'owner': 'shravan', 'start_date': datetime(2018, 11, 1), 'end_date': datetime(2018, 11, 30), 'depends_on_past': False, 'email_on_retry': False, 'retries': 3, 'retry_delay': timedelta(minutes=5), 'catchup_by_default': False, 'provide_context': True, } How to run this project? Step 1: Create AWS Redshift Cluster using either the console or through the notebook provided in create-redshift-cluster Run the notebook to create AWS Redshift Cluster. Make a note of: DWN_ENDPOINT :: dwhcluster.c4m4dhrmsdov.us-west-2.redshift.amazonaws.com DWH_ROLE_ARN :: arn:aws:iam::506140549518:role/dwhRole Step 2: Start Apache Airflow Run docker-compose up from the directory containing docker-compose.yml. Ensure that you have mapped the volume to point to the location where you have your DAGs. NOTE: You can find details of how to manage Apache Airflow on mac here: https://gist.github.com/shravan-kuchkula/a3f357ff34cf5e3b862f3132fb599cf3 start_airflow Step 3: Configure Apache Airflow Hooks On the left is the S3 connection. The Login and password are the IAM user's access key and secret key that you created. Basically, by using these credentials, we are able to read data from S3. On the right is the redshift connection. These values can be easily gathered from your Redshift cluster connections Step 4: Execute the create-tables-dag This dag will create the staging, fact and dimension tables. The reason we need to trigger this manually is because, we want to keep this out of main dag. Normally, creation of tables can be handled by just triggering a script. But for the sake of illustration, I created a DAG for this and had Airflow trigger the DAG. You can turn off the DAG once it is completed. After running this DAG, you should see all the tables created in the AWS Redshift. Step 5: Turn on the load_and_transform_data_in_redshift dag As the execution start date is 2018-11-1 with a schedule interval @daily and the execution end date is 2018-11-30, Airflow will automatically trigger and schedule the dag runs once per day for 30 times. Shown below are the 30 DAG runs ranging from start_date till end_date, that are trigged by airflow once per day. schedule
Python
12
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2

CHAT_BOT

Creating a chatbot to help customers answer FAQ questions
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3

JUMIA_E_COMMERCE_scraper

Using Selenium driver to scrap Jumia E-commerce website for Laptops and Price
Jupyter Notebook
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4

MY-SQL-PRACTICE-COMMANDS

JOIN ME & LETS PLAY WITH SQL.
2
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5

MY-PYTHON-SCRIPTS-and-PROJECTS

I designed a simple calculator app with Tkinter package in python.
Python
2
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6

CUSTOMERS-SPEECH-EMOTION-RECOGNITION

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2
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7

OSUN-MALL-CUSTOMERS-SEGMENTATIONN

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2
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8

TWITTER_auto_login_tweets

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2
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9

SURVIVAL-EDA-OF-TITANIC_SHIP-with-python

There seems to be many EDA(exploratory data analysis) on Titanic dataset, but none/few include 'Embark_town' & its correlation. So I am focusing on 'Embark_town' together with 'Age','Sex' & 'Survival'. Although I am tempted to use sweetviz Python library for auto profiling & visualization,I will stick with numpy,panda & matplotlib for now. NOTE: This is my first EDA(exploratory data analysis) with Python,so opinions & suggestions are appreciated.
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2
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10

SENTIMENT_ANALYSIS_OF_SHOPRITE_on_Twitter

The objective is to analyze Tweeps (twitter user's) emotion about shoprite, Most occurring words in tweets &Top Tweeps on ShopRite trend table.
Jupyter Notebook
2
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11

Diagnosis-of-Breast-Cancer-with-Machine-Learning-models

This project is like a tradition for upcoming data scientists. It's about Cancer of the breast diagnosis by checking for the correlations in Breast measurements like Area, Perimeter, radius, concave point etc. It's a classification problem,so I used models like Logistic regression, SVM, Random forest and K nearest neighbor. I used sklearn library for this...For the EDA part, I used pandas,which shows 50-60% of diagnosis is benign. Also the diagnosis have strong correlation with radius,area, perimeter, concavity and concave point.
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2
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12

PREDICTING_UNEMPLOYMENT_RATE_IN_OSUN_with_Prophet_model

This project is aimed at solving problems & getting insights indigenous to my country Nigeria. I initially used a linear regression model,but now with more skills, I have choosen to use FbProphet model (Time_series Analysis)
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13

WEB_SCRAPER_Rape_news

A web scraper (selenium) to extract rape-related news from sites like Linda ikeji blog, Thisday, Punch etc. From March to September (COVID lockdown). This extracted info include TITLE, STORY, DATE, URL & SOURCE
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14

V_INTERNSHIP

Documents and Notebooks from various interns
HTML
1
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15

BUILDING_A_DATA_LAKE_USING_SPARK

A data engineering project
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1
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16

PWC-Power-BI-virtual-case

##1 Call Centre Trends Visualising customer and agent behaviour.
1
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17

ETL-INTEGRATION-of-PYSPARK-with-AWS-and-GCP

This Project is aimed at Integrating SPARK with local & cloud storage like AWS & GCS. (PYSPARK, AWS BOTO3, S3, RDS, PSYCOPG2 & GCS-OAUTH-BOTO-PLUGIN) All in Google Colab's Linux environment)
Jupyter Notebook
1
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18

DATA-ENGINEERING-PROJECTS--udacity_nanodegree-

PROJECTS IN UDACITY NANODEGREE IN DATA ENGINEERING.1 Data Modelling wit PostegreSQL. 2 ETL in Cloud Data Warehouses. 3 Data Lakes with Spark.4 Data Pipelines with Airflow.5 Data Engineering Final Capstone Project.US Migration data ETL pipeline with Spark
Jupyter Notebook
1
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